Irrigation.



hmmm.

IRRIGATION.

AIPLIcATloN man ocr. 28. 1913.

Patented Sept. 14, 1915.

9 SHEETS-SHEET I,

I. B NAYLOR.

IRRIGATION.

APPLICATION FILED 061128, 1913.

L Patented Sept. 14, 1915.

9 SHEETS-SHEET 2.

l. B. NAYLOR IRRIGATION.

N FILED APPLICAT B. 1913. Ll. Pmentedsept. 14, 1915.

9 EEEEEEEEEEEE 3.

l. B. NAYLOR.

IRRIGATION.

APPLxcATloN FILED 051.28. 1913.

Ll, Patentedsept. 14., 1915.V

1. B. NAYLOR.

IRRIGATION.

iAPPLICATION F1150 ocT. 28. 1913.

Ll. Patented S6111. 14, 1915.

9 SHEETS-SHEET 5.

All

(wa/MMM l. B. NAYLR.

mmGATmN.

APPLICATION FILED OCT. 28. |9l3. LSBSS. PatentedSept-14, 1915.

9 SHEETS-SHEET 7.

I 6MM;

l. B. NAYLOR.

IRRIGATION.

APPLICATION FILED oc. ze, i913.

Patented Sept. 14, 1915.

9 SHEETS-SHEET 8.

@Witwe/Joao l. B. NYLOR.

IRRIGATION.

APPLICATION FILED 001.28. |913.

l 9 Patented. Sept.. 14, 1915.

9 SHEETS-SHEET 9.

ISAAC B. NAYLOR, 0F NEW YORK, N.

IRRIGATION.

Specification of Letters'iFatent.

Patented Sept. 1411, 1915.

Application filed October 28, 1913. Serial No. 797,857.

T0 all whom 'it' may concern Be it known that l, ISAAC B. NAYLOR, a citizen of the United States, residing at New York, county of New York, and State of New York, have invented certain new and useful Improvements in Irrigation, of which the following is a specification.

'lThe object of my invention is to provide an apparatus or system wherebythe irrigation, aeration, fertilization and drainage may be operated or controlled independently, generally or conjointly from one, two, three or more station or stations, at one or more levels and in different positions.

A further object of my invention is to provide an apparatus or system whereby any one particular line of lateral pipes or any particular combination of lines of lateral pipes laid in conjunction, therewith and connecting thereto may be made to become active oi' inactive at will without interruption or conflicting with one or the other in the act of irrigation, aeration, fertilization or drainage.

A still further object of my invention is to provide a'filter feed for the apparatus or system whereby any interfering solids in the natural water used or any contaminating substances encountered in handling the water used may be leeclied therefrom and the water made i'it before entering the reservoir supplying the irrigating pipes of said apparatus or system.

ln the drawings Figure 1 is a perspective view of a combined irrigation and drainage system embodying my invention showing the individual intake and individual drain for each lateral controlled at one station wlierebyrthe water flows from and returns to a common source. Fig. 2 is a perspective view of one of the supply intake pipes. Fig. is a perspective view of one of the inlet boxes. Fig. i is a detail perspective view of the end of one of the pipes. Fig.l 5 is a perspective viewY of one of the filler or intermediate sections. Fig. 6 is a perspective view of one of the pipes. Fig. 7 is a perspective view of one of three way pipe sections. Fig. 8 is a detail perspective view of the other end of the pipe'shown in Fig. 4. Fig. 9 is a longitudinal vertical section of Fig. 1. Fig. 10 is a top plan view of Fig. 1. Fig. 11'is a perspective view of a combined irrigation and drainage system wherein the drainage is returned from the outer ends of the lateralA pipes, each having .individual perspective view of a combined irrigation and drainage system showing a general control of the intake and an individual control of the outlet of each lateral,controlled at one station, whereby the water flows from and returns'to a common source. Fig. 18 is a detail perspective view of a combined irrigation and drainage system wherein the lateral extensionA serves as a drainage and irrigation pipe, the feed being under general -control and the outlet being under general control at one station, whereby the water 'Flows from and returns to a common source. Fig. 14. is'a detail perspective view of a combined irrigation and drainage system4 with general control at one station, the supply and return passing through the same pipe. Fig. 15 is an end view of a joint of the lateral pipe .showing the water seal course left open and the water gate shown in the intake course cast integrally. Fig. 16 is a similar View showing the water seal closed. Fig. 1Ga i s an end view of a joint or pipe section showing the side channels closed at one end and thecentral pipe open from end to end. Fig. 161 is a detail perspective view of the end of one of the pipe sections showing a combined plug for the water seal of the side channels and binders. Figs. 17 and l18 Aare transverse sectional views through two types of pipe used in my system. Fig. 19 is a perspective view of a system embodying my invention with individual control of irrigation and general control of drainage from one station. Fig. 2O is a detail perspective view of a system like that shown in Fig. 19 except that the drainage comes back through the irrigating lateral. Fig. 21 is a longitudinal vertical sectional view through the lateral shown in Fig. 19 the return drainage and the supply pipes being in transverse/section. Fig. 22 is a d etail perspective view of a system embodying my invention showing the drain pipe outside of the reservoir with three station control. Fig. 23 is a detail sectional view of Fig. 20. Fig. 2st is a cross sectional view of the main pipes extending longitudinally of the iirst lateral in Fig. 1. Fig. 25 is an enlarged detail longitudinal vertical section of F l,

through the intakes. Fig. 26 is a similar view through the drains and overflows. Fig. 27 is a longitudinal vertical section through one of the supply intake pipes. Fig. 28 is a perspective view of one of the pipes partly broken away. Fig. 29 is a perspective view ofthe filter. Fig.`30 is a perspective view of one of the pipes partly broken away.

Fig. 31 is a longitudinal sectional view through the filter. Fig. 32 is a longitudinal vertical section of Fig. 12. Fig. 33 is a longitudinal vertical section of Fig. 13. Fig.

34 is a longitudinal vertical section of Fig. 20. Fig. 35 is a longitudinal vertical section of Fig. 14. Figs. 36 to 42 and Figs.44 and 45 are perspective views of various pipe sections. Fig. 43 is a perspective view of an irrigation and drainage system showing the use of the irregular pipe sections-in the supply pipe. Fig. 46 is a longitudinal vertical section through one type of control valve for the flood control. Fig. 47 is a similar view of another type of valve for the flood control. Fig. 48 is a vertical centralsection fication the irrigation and drainage system is constructed on the unit plan and the various pipes used in the system are square in cross section whereby the pipes may be pipes for Ythe drainage water.

laid one upon the other and constitute a very stable construction. The larger pipes being multiples of the smaller pipes.

In Fig. 1 it will be seen that the irrigation feed pipes V to' 22 both inclusive pass through one wall of the reservoir 3 and have upturned ends within the reservoir. The pipe 5 extends to the first lateral 24, and is l.connected therewith as follows: The lateral 24 is made upof as many sections as may be desired or required by the area to be irri- Y gated, drained, fertilized or aerated.

rEhe first ysection of the lateral, designated by thenumeral 25, is divided into three channels,vthe central channel'26 (see Fig. 30) constituting the pipe for irrigating water, and vthe v channels 27 constituting Y 28 is an opening through the top of the pipe section which is surrounded by a tongue 29 set back from the edge of `said opening. rThe bottom of the irrigating water channel or pipe 26 is inclined downwardly and forwardly from the opening 28, said bottom ybeing designated by the numeral 30 (see Fig. 24) while the top walls 31 of the drainage pipes 27 are inclined in the opposite direction.

A filler block 32 having a groove 33 in its under face is placed around the opening 28, the groove 33 receiving the tongue 29 thereby locking the filler block to the section 25. A cap 34 is placed over the filler block and has a tongue and groove locking connection with said block as shown in Fig. 24. This capl 34 is provided with a rectangular opening 35 through one end thereof which is surrounded'by a groove 36. 37 a is a water shelf projecting within the cap, the purpose of which is to deliver the water at a point beyond the wall of the cap so that it may have a sheer drop through the filler block into the section 25 through the opening 28; be-

sides which it serves as a wear plate to prevent the edge of the cap from becoming worn by the action of the water. The parts being in the position shown in Figs. 1 and 24 the water pipe 5 is connected with the opening 35 as follows: The pipe 5 has an opening 37 formed at one end thereof in one of its side walls of an area commensurate with the opening 35 in the cap 34, and this opening 37 is surrounded by a tongue 38 which lits into the groove 36 in the cap 34 thus firmly interlocking the two members. The water pipe 5 is supported in its position by means of the wat-er pipes 11 and 17 and the drain pipes 39, 40 and 41 to be hereinafter referred to. The next lateral 42 is connected to the reservoir 3 by means of the irrigation water pipe 11, as shown in Fig. 1 and as this pipe is on a lower horizontal plane than the pipe 5 I omit the filler block on this lateral so that the cap 34 (of the same construction as above described) is in alinement with the irrigation water pipe 11. rlhe rst section 43a of the next lateral 43 is of different construction from the first section of thelaterals 25 and 42 and is best l illustrated in the sectional. view Figs. 2 and 27.. This section is divided into three channels, the central channel serving as the irrigation water pipe, while the two side channels serve as the drainage water pipes which drainage pipes open into a common space 44 which is in communication with a laterally disposed elongated discharge opening 45.

rThe bottom of the irrigation water channel is inclined downwardly as at 46, the highest portion thereof being on a line with the lower edge of the elongated laterally disposed opening 47. The tops of the partitions dividing the section 43 into channels are inclined downwardly as at 48 to a point in alineinent with the bottom of the opening 47 thereby forming a space 49 at the mouth of the irrigation water channel. rI`he space between the channel partitions and the sides of the section are closed at the top by means of fillers 50 so that irrigation I water Icannot pass into the draining channels and drainage Water cannotpass intothe rounding-the opening 47 and forms there- With a Water tight joint. Irrigation Water pipe 7 connects With lateral 54; irrigation water pipe 6 connects with lateral 51; irrigation Water 'pipe 12 connects with lateral 52, irrigation Water pipe 13 connects with lateral 56, irrigation Water pipes f18, :19, 20

respectively connect With laterals 53, 5`7and 58. The other nine irrigation Water pipes s, 9, 1o, i4., 15, 1e, 21, e2, 23m@ connected VWith the laterals 58 to 66 as just explained.

I Will novv describe the drainage inlcon nection With the laterals first described: The lateral 25 has an opening .similar to opening 28 (see Fig. 30) with which the under filler block 67 has a tongue and Ygroove joint; a cap 68 (correspondingto cap 34) underlies the block, the opening in-the cap registering With the opening in the side Aof the drainage pipe 41 (corresponding With the, pipe 5 Fig. 6). The lateral 55 is connected with the drainage Ypipe 40, and the lateral 43 is connected lwith the drainage pipe 39 and so onthroughout the laterals.

The outer or discharge ends of the drainage pipes have upright pipes 69 connected with them each of Which has a series of overflow outlets 7 O controlled by a suitable valve which enables me to regulate the flood and drained conditions 'in the'ground. For instance: If I open thetends of all of the drain pipes I am enabled to completely drain the land. If on the other hand I Wish to drain or flood the land only to acertain depth I open the overflow outlets 70 corresponding to that depth, and I can maintainthat flood condition so long as I keep the inlet Water pipes closed. Y Different flood or drain levels are indicated inthe upper leftA hand corner of Fig. 9. `The drainage overflow can be caught in the overflow trough 71 and by suitable means conducted to a reservoir and used for irrigation in the same field from VWhich it is drained .orin another field.

provided with discharge ports 74 on eachside at one end thereof communicating. lwith the drainage channels; 4at the other lend of isat 78 vshovvnin Fig. 7. and *groove :joint between all of the pipes.

the `section 73 there is an overflow .port -76 `in the top of Aeach partition, `through which water overflows yfrom the channel 26 into 'the side'channels 77 @along 4Which `it flows Iu-ntil it reaches the discharge Eports 74 through rvviriieh it floivs intoithe ground for Ethe purpose .ofirrigation IVhen itbecomes Vneeessafiyto drainlthel'groimdthe supply of livateriscut off from the reservoir, Whereupon, afteropening upthe 'ends ofthe drain- Sage.:v pipes, the Water flows through theports 74 into #theehannels .77 thence to vthedrain- `age'pipes, 39, 40, 41 `&c. Lto. 'from which it is discharged as abovefexplained. The section connection Withfthe upright overflow pipes There is a tongue The purpose of arranging inactive sections infthe llaterals is 1to `preventan oversupply of irrigation. Thesections of'the laterals -ea'ehhave a gate 480,1there being an airspace 81 `betvveentheitop` of said gate and bottom of'the'top avallof thesectionto insure aera- Ltion of the irrigating Water.

AI :may `introduce fertilizers of various kinds, according to the needs of the crops tinto the Water pipes `thus applying it directly to the roots of the plants and the fertilizer can be fed `to a lparticular part of the field by introducingit inthe Water pipe connected to the lateral in that part ofthe field. y

It Will be seen `that the system in Fig. 1

`provides for individual control of each lateral Aas to irrigation, drainage, fertilization and aeration and that the irrigation and drainage pass `through the lateral.

vIvvill novv -referfto 'the system shown in Fig. 11`be`eause it is very similar tothe one shovvnin Fig. 1 and just labove described.

The only difference between the tivo systems `is that I connect the drainage `pipes 82, to the outer ends of the laterals 83. `the irrigatingWater1pipes, 85Vthe overflow `control pipes, 86 the chamber.

84 are In Fig. 12the drainage pipes 87 and laterals 88 are likefthose `described in eonnec- Vtion With Fig. 1 but `the Water supply pipe 89 is common to all of the l'atcrals. In Fig. 13 the irrigation Water pipe 90 is common to all of the laterals T91 andthe `drainage Water ypipe 92fis likewise common to all of the laterals so that the control is from one's'tation. VVhile the pipes are being used for `irrigation the endi93 of the drainagepipe is closed. 94 is the supply.

In Fig. '14,theirrigating Water and drainlage Water lpass throughthesame-pipe 95 `and this pipe iscommonftoall ofthe laterals 96. The pipe 95 has an intake'in the reservoir chamber 97, and an outlet 98 in the cham- Yber 99. The outlet '98 is capped when the systemis'being used fOrirrigatin.'

` The system shovvn in Fig. "19 is similar to T shown in'dotted lines.

` box.

that shown in Fig. 11 `except that the drainage pipe 100 is common to all of the laterals 101 so that Iihave individual control for the irrigation water, pipes 102 `and general control from one station for the drainage. See iniconnection' with this vfigure, Fig. 21. In'Fig. 20 I show a system similar to that shown in Fig. 19 except that the common drainage pipe 103 is connected withV the inwater and lateral pipes.

Fig. 22 is villustrativeof a three-way control system especially adapted for rolling land. In this figure 107 is the chamber, 108 the inlet, 109 the irrigation water pipe common to all of the laterals 110 and 111. The laterals 110 have aV common drainage pipe 112 vand the laterals V111'have a common drainage 113. It will be noted thatin this system the drainage pipes do not lead. bac1v to the chamber 107 as in the other systems. It is this difference that adapts this particular system to rolling land inasmuch as the discharge of'each drainage pipe canbe located according to the topography of the land. Y

In Fig.' 16 the discharge ports 74 are Inl many localities the Vwater is full -of slime and is otherwise impure; therefore I providejthe filter shown in Figs. 29 and 31 to cleanse thewater. This filter isV composed'of a'number of boxes 114 with av space 115 between successive boxes and overflow ports 116 in -each side. 'Ihe exit port 117 of each box is at thebottom thereof while the inlet 118 to each box is at the topiof the Each box is Llled with sand and gravel as shown. 119 is an overfiow leading into the chamber 1. AOn each side of the boxes is a spill way 120 extending Vfrom the one, the object o :t' which is to receive the scum andzother impurities -which overfiow l from theboxes 104 through the ports 116.

In Fig. 28 I have shown another form of lateral pipe section which Ydiffers from that shown in Fig. 430 in that the channels 117 are of the same height throughout their Y length, and each side channel has a separate discharge 1181 .V

In Fig. 17 I illustrate another .embodiment 'of my invention for the lateral pipe sections. in which 118a is the drain water pipe,'119 the channels communicating with said pipe by means of the ports 120, said channelshaving inlet ports 121. r 122 is'the irrigation water pipe having ,channels 123 .on opposite'sides thereoi:I and communicat- Iing therewith by means of overiiow `vports 124. 12,5,are ports leading from the bottom of. the channels 123 intoal slot 126 `the bottom' of the pipe. Of course this type of pipe is laid on loose gravel or sand base or similar material which acts as a percolator for water discharged in order that the water mayflow freely from the slot 126 and thence into'the land. The head of the column of water in the channels 123 is sufHcient to prevent'sand etc. from rising in said channel and clogging the same and its ports.

Y In Fig. 18 the exit ports 127 for the irrigation water are formed through the side kwalls of the'pipe, and run parallel with the inlet ports 128 from which they are separated by walls 128, otherwise the construction is the same as in Fig. 17, except of course there is no need for the slot in the fbottom of the pipe.

The direction of fiow of water is indicated 'by the arrows in the several figures.

In Fig. 16a I have shown the side channels Closed at one end while the central channel is open from end to end.

In Fig. 16b the pipe 127a has the discharge port 127b and is provided with plugs 129 which serve to close the ends of the Walter seal channels and also act as a binder between abutting sections.

Inl Fig. 43 130 is the irrigation water pipe common to all of the laterals and 131 are the Adrainage water pipes terminating fpipe sections shown in detail in Figs. 36,

37 and 38. uppermost box to the lowermost box, but

end of thesystem. In Fig. 38 I illustrate lthe section 134 in an inverted position to show the outlet 139 to which the lateral pipe is connected.

In Fig. 41 I illustrate in detail the pipe unit140 having an opening 141 in one of its sides which unit is adapted for use in the systems, as for instance in Fig. 22.

Fig. 42 is a perspective view of another pipe unit I malte use of in the system; see for instance 142 in Fig. 33.

In Figs. 39 and 40 I illustrate the pipe units 143 and 144 used in Fig. 22.

Figs. 44 and 45 are illustrative of the pipe units 145 and 146a which are shown in use in Fig. 14. The pipe unit 144, Fig. 22, is illustrated in Fig. 40 in perspective.

Referring to Fig. 48, the irrigation intake pipe 6 is shown provided with a valve 147 having an enlarged` head and a pendant extension 148 which extends some distance into the pipe. A pull 149 is secured to the valve by means of which it is operated. The quantity of water entering the pipe per minute may be regulated according to the distance the pendant projects into the pipe as will be readily understood.

In Fig. 47 the upright 69 is shown as provided with an overflow port 7 0 as already explained. 149a is a tapering plug valve adapted to close said overflow.` 150 is a screw stem secured to the valve and provided withan operating handle 151. 152 are brackets extending from the cement wall 152a in which the uprightsy are embedded, and terminating in inwardly turned flanges 153. 154 is an abutment washer or plate mounted between said brackets and back of the flanges 153 and provided withva screw threaded opening through which the stem 150 passes whereby vthe movement of the valve is controlled.

In Figs. 46 and 49 I show other types of valves which may be used in place of valve 149e. In Fig. 46, 154a is a rubber tube having an inwardly projecting flange 155. 156 is a rod passing through the tube 154a on which is mounted washers 157 and 158. 159 is a coiled spring mounted inside said tube around the rod 156, one end of which is secured to the washer 157 while the other end is secured tothe washer 158. 1591 is an operating handle.

In Fig. 49, 159EL is the overflow port and 160 is an inflatable valve mounted therein.

In Fig, 11b I have shown an arrangement whereby laterals 161fand 162 on different levels may be connectedby the veitCal Dit 163. The vertical unit 163 is provided with three openings at each end corresponding to the three channels in the'laterals heretofore described.

l TWhat I claim is:

1. In a combined irrigation and drainage" system, the combination with a central station, of drainage pipes, individual control for each pipe and means at the central stati on to regulate the depth of drainage by the respective pipes.

2. In a drainage system, the combination with a central chamber, divided into a supply reservoir and a drainage pipe chamber, of an irrigation water pipe extending from the said supply reservoir, a lateral connected with said irrigation water pipe, and a drainage water pipe also connected with said lateral and extending into said drainage chainber, and a vertical control pipe extending from the drainage pipe within said chamber, a plurality of discharge ports in said vertical pipe arranged one above the other, and a valve for each port, whereby the depth of drainage and the height of the flood in the land may be regulated at will.

3. In a drainage system, the combination with a central station, of a series of drainage pipes extending therefrom to dilierent points in the area to be drained, means at said central station controlling the discharge from each pipe individually whereby the height of the Hood and the depth of the drainage in different parts of the area reached by said pipes may be regulated at will independent of the other points of the area.

4. In a combined irrigation and drainage system, the combination with a chamber divided into a water supply reservoir and adrainage chamber, of irrigating pipes extending from the supply reservoir, laterals connected to said irrigation pipes and a drainage pipe connected to each lateral and leading back to the drainage chamber, a vertical control pipe extending from each drainage pipe within said chamber, a plurality of overflow ports in each of said vertical pipes arranged one over the other and a valve for each port whereby the depth of drainage and the height of the flood can be regulated at will.

5. In a drainage and irrigation system, the combination with a pipe section, longitudinally extending partitions in said section, dividing the section into two vertical sides and a vertical middle channel, the side channels merging into one channel at one end of the section and terminating in a horizontally disposed opening, the middle channel terminating in a horizontally disposed opening parallel with the opening of the combined side channels, the bottom of the middle channel being inclined; one of said openings serving to conduct drainage water from the side channels while the other opening serves to; conduct, irrigation water into the middle channel.

6. In a drainage and irrigation system, the combination with a central station of control, of a` series of irrigation water pipes extending from said station to different points in the area to be irrigated, means in said station for controlling each of said pipes separately to control the amount of water to be delivered at any given point in the said area, and drainage pipes leading from different points throughout the area to be drained, to said central station, and means at said station to control each drainage pipe separately whereby the amount of drainage at any given point in the area can be regulated; whereby the height of the flood and depth of the drainage in different parts of the area reached by said pipes may be regulated, from a central station, at will independent of the other points of the area.

7. In an irrigation and drainage system, a pipe unit comprising drainage channels eX- tending from the bottom tothe top of the pipe inside thereof, a drainage pipe therebetween, ports ,connecting said channels and pipe at the top thereof and ports leading from the bottom of said channels outside of the pipe, irrigation water seal Ychannels formed below the said drainage pipe and between the drainage channels, an irrigation waterpipe formed therebetween, ports establishing communication with the irrigation channels and pipe at the top thereof and ports leading from the bottom of the irrigation channels outside of the pipe.

l8. In an irrigation and drainage system, the combination with a water supply pipe and a drainage pipe, of a pipe closed at one end, parallel partitions extending longitudinally ofV said pipe forming two side channels and a water pipecentral thereof, a port inthe upper side of said pipe leading into the said central water pipe, said water supply pipe registering with said port, a plurality of. ports in the under side of said pipe registering respectively with said side channels, said drainage pipe communicating with and being-common to said plurality of ports. Y

9. In an irrigation and drainage system, the combination with a water supply pipe and a drainage pipe immediately below the water pipe, of a lateral pipe common to the water supply and drainage pipe, and having direct communication therewith, said lateral pipe being divided into three channels, the central channel serving as an irrigation water pipe while the two side channels serve asdrainage water pipes, said side channels opening into a common space which is in ported communication with the first named drainage pipe, the bottom of the water channel being inclined in the direction of its length 'from the main water supply pipe, the tops of the partitions being inclined in the direction of their length toward the main water supply pipe, thereby forming v'an enlarged chamber at the juncture between the said main water supply pipe and the said lateral pipe.

l0. In an irrigation and drainage system, the combination with a series of main water supply pipes and a series of main irrigation pipes, said series of main water supply pipes being superimposed upon said series of main irrigation pipes, each pipe of each series terminating .at a diiferent point, a lateral combined irrigation and drainage pipe having communication with a main water and a main irrigation pipe terminating at the saine point; said communication comprising a cap having an enlarged discharge opening in its underface leading into the said lateral pipe and an intake opening in one of its end walls communicating with a main water pipe, and a cap having an enlarged opening in its upper face communicating with said `lateral pipe and an opening in one of its end walls communicating with a main drainpage pipe.

11. In an irrigation and drainage system, the combination with a series of main water supply pipes and a series of main irrigation pipes, said series of main water supply pipes being superimposed upon said series of main irrigation pipes, each pipe of each series terminating at a different point, a lateral combined irrigation and drainage pipe having communication with a main water and a main irrigation pipe terminating at the same point; said communication comprising la cap having an enlarged discharge opening in its underface leading into the said lateral pipe and an intake opening in one of its end walls communicating with a main water pipe, and a cap having an enlarged opening in its upper face communicating with said lateral pipe and an opening in one of its end walls communicating with a main drainage pipe, and a central control station common to the drainage and the irrigation pipes, whereby each pipe may be controlled independently of the other pipes.

In testimony whereof l affix my signature in presence of two witnesses.

ISAAC B. NAYLOR. Witnesses:

EDWIN S. CLARKsoN, I. T. STANLEY.

Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,

Washington, D. C. 

